Affiliation:
1. Beijing Information Science & Technology University
2. Beijing Information Science and Technology University
Abstract
Points matching is a key technology in close-range photogrammetry. The epipolar line constraint that confines the research area from two dimensions to one dimension, can improve the efficiency of matching process. In the paper, coded targets are applied to get a set of accurate correspondences of points between images, and then the correspondence set is used for calculating fundamental matrices by normalized 8-points algorithm that can be implemented quickly and simply. Because of the ambiguities, a completely accurate correspondence set will not be gained only by epipolar line constraint, and other technologies should be combined with epipolar line constraint. Three views are used to decrease ambiguities, and a method of dynamic threshold is presented to reject wrong correspondences. A proper threshold is calculated, and those correspondences whose corresponding distance is larger than the dynamic threshold, are considered as wrong matching points. Many experiments show that the correct rate of matching is about 99.98%, which means an automatic, efficient, accurate matching process can be implemented by the methods in this paper.
Publisher
Trans Tech Publications, Ltd.
Reference13 articles.
1. Qiqiang Feng. Artificial Targets Match and High-speed Calculation of Self Calibration Bundle Adjustment in Digital Industrial Photogrammetry[D], In Chinese. Zhengzhou, China: The PLA Informtion Engineering University, (2007).
2. Mingli Dong,Xiaogang Zhou,Naiguang Lu,et al: Chinese Journal of Mechanical Engineering,2005,18(3):453-456.
3. Mingli Dong, Xiaojuan Qi, Naiguang Lu, et al: Tool Engineering. 2006, 40(4):73-75.
4. Mingli Dong,Jun Wang,Naiguang Lu. A point matching method in photogrammetry for microwave antenna with non-metric cameras. Proceedings of SPIE,Urumqi,China, Third International Symposium on precision Mechanical Measurements,Vol. 6280,(2006).
5. Ming-li Dong Zhenhua Wang, Lianqing Zhu, et al: Journal of Beijing University of Technology, 2009, 35(4).